Expressions 1 Expressions n Variables and constants linked
Expressions 1
Expressions n Variables and constants linked with operators ¨ Arithmetic n n Uses arithmetic operators Can evaluate to any value ¨ Logical n n expressions Uses relational and logical operators Evaluates to 1 or 0 (true or false) only ¨ Assignment n n expression Uses assignment operators Evaluates to value depending on assignment 2
Arithmetic Operators n Binary operators ¨ Addition: + ¨ Subtraction: – ¨ Division: / ¨ Multiplication: * ¨ Modulus: % n Unary operators ¨ Plus: + ¨ Minus: – Examples 2*3 + 5 – 10/3 – 1 + 3*25/5 – 7 distance / time 3. 14* radius a * x + b*x + c dividend / divisor 37 % 10 3
Contd. n Suppose x and y are two integer variables, whose values are 13 and 5 respectively x+y x–y x*y x/y x%y 18 8 65 2 3 4
All operators except % can be used with operands of all of the data types int, float, double, char (yes! char also! We will see what it means later) n % can be used only with integer operands n 5
Operator Precedence n In decreasing order of priority 1. 2. 3. 4. n n Parentheses : : ( ) Unary minus : : – 5 Multiplication, Division, and Modulus Addition and Subtraction For operators of the same priority, evaluation is from left to right as they appear Parenthesis may be used to change the precedence of operator evaluation 6
Examples: Arithmetic expressions a+b*c–d/e a + (b * c) – (d / e) a*–b+d%e–f a * (– b) + (d % e) – f a–b+c+d (((a – b) + c) + d) x*y*z ((x * y) * z) a+b+c*d*e (a + b) + ((c * d) * e) 7
Type of Value of an Arithmetic Expression n If all operands of an operator are integer (int variables or integer constants), the value is always integer ¨ Example: 9/5 will be 1, not 1. 8 ¨ Example: int a=9, b=5; printf(“%d”, a/b) will print 1 and not 1. 8 8
n If at least one operand is real, the value is real ¨ Caution: Since floating-point values are rounded to the number of significant digits permissible, the final value is an approximation of the final result ¨ Example: 1/ 3. 0 * 3. 0 may have the value 0. 99999 and not 1. 0 ¨ So checking if 1/ 3. 0 * 3. 0 is equal to 1. 0 may return false!! 9
n The type of the final value of the expression can be found by applying these rules again and again as the expression is evaluated following operator precedence 10
We have a problem!! int a=10, b=4, c; float x; c = a / b; x = a / b; The value of c will be 2 The value of x will be 2. 0 But we want 2. 5 to be stored in x We will take care of this a little later 11
Assignment Expression n n Uses the assignment operator (=) General syntax: variable_name = expression Left of = is called l-value, must be a modifiable variable Right of = is called r-value, can be any expression Examples: velocity = 20 b = 15; temp = 12. 5 A = A + 10 v=u+f*t s = u * t + 0. 5 * f * t 12
Contd. An assignment expression evaluates to a value same as any other expression n Value of an assignment expression is the value assigned to the l-value n Example: value of n ¨a = 3 is 3 ¨ b = 2*4 – 6 is 2 ¨ n = 2*u + 3*v – w is whatever the arithmetic expression 2*u + 3*v – w evaluates to given the current values stored in variables u, v, w 13
Contd. n Several variables can be assigned the same value using multiple assignment operators a = b = c = 5; flag 1 = flag 2 = ‘y’; speed = flow = 0. 0; n Easy to understand if you remember that ¨ the assignment expression has a value ¨ Multiple assignment operators are right-to-left associative 14
Example n Consider a= b = c = 5 ¨ Three assignment operators ¨ Rightmost assignment expression is c=5, evaluates to value 5 ¨ Now you have a = b = 5 ¨ Rightmost assignment expression is b=5, evaluates to value 5 ¨ Now you have a = 5 ¨ Evaluates to value 5 ¨ So all three variables store 5, the final value the assignment expression evaluates to is 5 15
Types of l-value and r-value n n n Usually should be the same If not, the type of the r-value will be internally converted to the type of the l-value, and then assigned to it Example: double a; a = 2*3; Type of r-value is int and the value is 6 Type of l-value is double, so stores 6. 0 16
This can cause strange problems n n n int a; a = 2*3. 2; Type of r-value is float/double and the value is 6. 4 Type of l-value is int, so internally converted to 6 So a stores 6, not the correct result But an int cannot store fractional part anyway So just badly written program Be careful about the types on both sides 17
More Assignment Operators +=, -=, *=, /=, %= n Operators for special type of assignments n a += b is the same as a = a + b n Same for -=, *=, /=, and %= n Exact same rules apply for multiple assignment operators n 18
Contd. n Suppose x and y are two integer variables, whose values are 5 and 10 respectively. x += y x –= y x *= y x /= y Stores 15 in x Evaluates to 15 Stores -5 in x Evaluates to -5 Stores 50 in x Evaluates to 50 Stores 0 in x Evaluates to 0 19
Logical Expressions Uses relational and logical operators in addition n Informally, specifies a condition which can be true or false n Evaluates to value 0 or 1 n ¨ 0 implies the condition is false ¨ 1 implies the condition is true 20
Logical Expressions (count <= 100) ((math+phys+chem)/3 >= 60) ((sex == ’M’) && (age >= 21)) ((marks >== 80) && (marks < 90)) ((balance > 5000) | | (no_of_trans > 25)) (! (grade == ’A’)) 21
Relational Operators n Used to compare two quantities. < is less than > is greater than <= is less than or equal to >= is greater than or equal to == is equal to != is not equal to 22
Examples n 10 > 20 is false, so value is 0 25 < 35. 5 is true, so value is 1 12 > (7 + 5) is false, so value is 0 32 != 21 is true, so value is 1 When arithmetic expressions are used on either side of a relational operator, the arithmetic expressions will be evaluated first and then the results compared a + b > c – d is the same as (a+b) > (c+d) 23
Logical Operators ¨ Logical n Evalutes to 1 if both the operands are non-zero ¨ Logical n AND (&&) OR (||) Result is true if at least one of the operands is non-zero X Y X && Y X || Y 0 0 0 non-0 non-0 non-0 24
Contd n Unary negation operator (!) ¨ Single operand ¨ Value is 0 if operand is non-zero ¨ Value is 1 if operand is 0 25
Example n (4 > 3) && (100 != 200) ¨ 4 > 3 is true, so value 1 ¨ 100 != 200 is true so value 1 ¨ Both operands 1 for &&, so final value 1 n (!10) && (10 + 20 != 200) ¨ 10 is non-0, so value !10 is 0 ¨ 10 + 20 != 200 is true so value 1 ¨ Both operands NOT 1 for &&, so final value 0 n (!10) || (10 + 20 != 200) ¨ Same as above, but at least one value non-0, so final value 1 26
n a = 3 && b = 4 ¨ No parenthesis, so need to look at precedence and associativity ¨ = has higher precedence than && ¨ b=4 is an assignment expression, evaluates to 4 ¨ a = 3 is an assignment expression, evaluates to 3 ¨ Both operands of && are non-0, so final value of the logical expression is 1 n Note that changing to b = 0 would have made the final value 0 27
Example: Use of Logical Expressions void main () { int i, j; scanf(“%d%d”, &i, &j); printf (“%d AND %d = %d, %d OR %d=%dn”, i, j, i&&j, i, j, i||j) ; } If 3 and 0 are entered from keyboard, output will be 3 AND 0 = 0, 3 OR 0 = 1 28
A Special Operator: Address. Of (&) n n n Remember that each variable is stored at a location with an unique address Putting & before a variable name gives the address of the variable (where it is stored, not the value) Can be put before any variable (with no blank in between) int a =10; printf(“Value of a is %d, and address of a is %dn”, a, &a); 29
More on Arithmetic Expressions 30
Recall the earlier problem int a=10, b=4, c; float x; c = a / b; x = a / b; The value of c will be 2 The value of x will be 2. 0 But we want 2. 5 to be stored in x 31
Solution: Typecasting n n Changing the type of a variable during its use General form (type_name) variable_name n Example x = ((float) a)/ b; Now x will store 2. 5 (type of a is considered to be float for this operation only, now it is a mixedmode expression, so real values are generated) 32
n Not everything can be typecast to anything ¨ float/double should not be typecast to int (as an int cannot store everything a float/double can store) ¨ int should not be typecast to char (same reason) n General rule: make sure the final type can store any value of the initial type 33
Example: Finding Average of 2 Integers int a, b; Wrong program int a, b; float avg; scanf(“%d%d”, &a, &b); avg = (a + b)/2; printf(“%fn”, avg); average-1. c float avg; scanf(“%d%d”, &a, &b); avg = ((float) (a + b))/2; printf(“%fn”, avg); Correct programs int a, b; float avg; scanf(“%d%d”, &a, &b); avg = (a + b)/2. 0; printf(“%fn”, avg); average-2. c 34
More Operators: Increment (++) and Decrement (--) n n Both of these are unary operators; they operate on a single operand The increment operator causes its operand to be increased by 1 ¨ Example: n a++, ++count The decrement operator causes its operand to be decreased by 1. ¨ Example: i--, --distance 35
Pre-increment versus postincrement n Operator written before the operand (++i, --i)) ¨ Called pre-increment operator (also sometimes called prefix ++ and prefix --) ¨ Operand will be altered in value before it is utilized in the program n Operator written after the operand (i++, i--) ¨ Called post-increment operator (also sometimes called postfix ++ and postfix --) ¨ Operand will be altered in value after it is utilized in the program 36
Examples Initial values : : a = 10; b = 20; x = 50 + ++a; x = 50 + a++; x = a++ + --b; x = a++ – ++a; a = 11, x = 61 x = 60, a = 11 b = 19, x = 29, a = 11 ? ? Called side effects (while calculating some values, something else gets changed) 37
Operator Class Operators Unary Precedence among different operators (there are many other operators in C, some of which we will see later) Binary Associativity postfix++, -- Left to Right prefix ++, -Right to Left ─ ! & * / % Left to Right + ─ Left to Right < <= > >= Left to Right Binary == != Left to Right Binary && Left to Right Binary || = += ─ = *= /= &= Left to Right Assignment Right to Left 38
Statements in a C program n n Parts of C program that tell the computer what to do Different types Declaration statements n Declares variables etc. ¨ Assignment statement n Assignment expression, followed by a ; ¨ Control statements n For branching and looping, like if-else, for, while, dowhile (to be seen later) ¨ Input/Output n Read/print, like printf/scanf ¨ 39
Example Declaration statement int a, b, larger; scanf(“%d %d”, &a, &b); larger = b; Assignment Control if (a > b) statement larger = a; printf(“Larger number is %dn”, larger); Input/Output statement 40
n Compound statements ¨A sequence of statements enclosed within { and } ¨ Each statement can be an assignment statement, control statement, input/output statement, or another compound statement ¨ We will also call it block of statements sometimes informally 41
Example int n; scanf(“%d”, &n); while(1) { if (n > 0) break; scanf(“%d”, &n); } Compound statement 42
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